KR20040089681A - A molybdenum silicide type element - Google Patents

Abstract

The present invention relates to a molybdenum silicide-based electrical resistive element comprising two terminals for supplying a current and at least one leg 3 extending between the terminals and having an incandescent region 3. The incandescent region has different diameters along different sections 6-11, 14-17 of the legs 3;

Description

Molybdenum silicide-based device {A MOLYBDENUM SILICIDE TYPE ELEMENT}

Molybdenum silicide-based electrical resistive elements have long been known in various forms with respect to different alloy contents. This type of device is summarized as a molybdenum silicide-based electrical resistive element, which has been used to heat various types of surfaces and ovens, such as irradiating surfaces to objects, cooker plates or other surfaces.

Molybdenum silicide-based devices are manufactured in various forms. A common form is the so-called leg member, which has two legs extending at one end between two conductors or terminals and joined at one end with an arc or curved member. The leg member may consist of one, two or more legs. Two leg-shaped members or multiple leg members have one or more curved members extending between the conductors. The legs have a glow zone, where the discharge area of the device glows when current is supplied to transfer heat to the object.

The problem encountered by industrial furnaces, ovens, etc., is that it is difficult to keep the temperature distribution sufficiently uniform inside the furnace space or to irradiate heat sufficiently uniformly from the irradiation surface. Non-uniform temperature distribution or non-uniform irradiation means that the furnace space or the object to be heated is not heated uniformly, which can be a serious problem.

The case where the liquid metal ladle needs to be preheated will be taken as a specific example. If the ladles are heated unevenly, problems arise because when the resistance element is used, the bottom of the ladle is not as hot as the inner wall of the ladle.

Conventional methods attempting to solve this problem include installing multiple devices or groups of devices in which the various devices are of high strength but can be individually controlled to deliver different energies.

The present invention relates to a molybdenum silicide-based electrical resistance element.

1, 2 and 3 show two different leg-shaped devices.

4 shows four leg-type elements.

The present invention seeks to solve the problem caused by uneven heating.

Accordingly, the present invention includes two terminals for supplying current, wherein at least one leg extends between the terminals and has an incandescent region, wherein the incandescent region is a different leg section. According to the present invention relates to a molybdenum silicide-based electrical resistance element having a different diameter.

Each dimension of a given portion of the device is shown in the drawings for simplicity. However, these dimensions are given by way of example only. In this figure, reference numeral Lu denotes the length of the terminal, and reference numeral Le denotes the length of the incandescent region. Reference numerals Le1, Le2 and Le3 denote the lengths of the different sections of the incandescent area of the device and reference a denotes the distance.

According to one embodiment, the electrical resistance element of the present invention has two current supply terminals 1, 2 and two legs 3, 4, 5 extending between the terminals and extending between the incandescent regions. .

According to the invention, the incandescent region has different diameters along different sections of the legs.

This means that the heat generated due to an imbalance in the amount of power or current intensity in the applicable cross-sectional area of each device varies in size along different sections of the device. Thus, the present invention can design the device according to the heating conditions present along the entire elongation of the device.

An element of the kind shown in FIG. 1 can be used in the case of the above embodiment in connection with a ladle whose bottom is not sufficiently heated compared to the inner wall when using a known element. The device of the present invention has a terminal having a diameter 24 of 24 millimeters, and has two legs of 12 millimeters in diameter of the upper member and 10 millimeters in diameter of the lower member. Such devices can be heated in a narrower and lower portion. Higher temperatures can further heat the portion of the object disposed adjacent to the section of the ladle.

According to one embodiment of the invention, the device has two legs with only one curved part 3 between the terminals 1, 2 (see FIG. 1).

According to one embodiment of the invention, the device has four or more legs (see FIG. 4) and has two or more parts 4, 5 arranged between the terminals 1, 2.

Devices of the type described above can also be formed with only one leg, for example a straight leg with terminals at each end.

FIG. 2 shows an embodiment in which the incandescent region has different diameters along the different sections 6, 7 and 8 of the legs, wherein the diameter of each section is from the terminals 1, 2 to the sections 6, 7. 8) decreases with increasing distance.

FIG. 3 shows an embodiment in which the incandescent region has different diameters along different sections 9, 10, 11 of the leg 3, where the diameters of the sections vary upwards and downwards along the legs. Of course, the same structure can be applied to devices having two or more legs. In the embodiment of FIG. 3, the sections 9, 11 have a diameter of 10 millimeters and the section 10 has a diameter of 12 millimeters.

In some applications, the incandescent region preferably has a different diameter along different leg sections, where the smaller the diameter of each section, the closer the section is to the terminal. In the embodiment of FIG. 4, the sections 12, 13 have a diameter of 8 millimeters and the sections 14-17 have a diameter of 9 millimeters.

Although a flat device is shown in the figures, the device may have two or more legs, where one, two or more legs or portions define an angle with respect to the plane on which the terminal is placed.

The device can be designed to heat the volume or form the irradiated surface in a known manner. In addition, the device may be designed or supported to be mounted vertically, horizontally, or at different angles with respect to the horizontal plane.

The different embodiments shown in the figures illustrate embodiments in terms of shape and diameter. As will be apparent to those skilled in the art, it is generally possible to provide in any form and form having different diameters that provide the heating effect required for a particular application. The present invention is not limited to specific device structures, as long as different sections have different diameters.

Therefore, since the modifications and changes can be made within the scope of the accompanying drawings, the present invention is not limited to the described and illustrated embodiments.

Claims (7)

In a molybdenum silicide-based electrical resistive element comprising two terminals for supplying current and one or more legs 3 extending between the terminals and having an incandescent region 3, Molybdenum silicide-based electrical resistive element, characterized in that the incandescent region has different diameters along different sections (6-11, 14-17) of the legs (3; 4, 5). The molybdenum silicide-based electrical resistance element according to claim 1, wherein the element has two legs and only one curved portion (3) between the terminals (1, 2). The molybdenum silicide-based electrical resistive element according to claim 1, wherein the element has three or more legs and two or more curved portions (3) between the terminals (1, 2). 4. The device according to claim 1, 2 or 3, wherein the device has one leg 3, two legs 4, 5 or more legs, the one, two or more legs or parts being connected to a terminal 1. And 2) to form a predetermined angle with respect to the plane on which the molybdenum silicide-based electrical resistance element. The method of claim 1, 2, 3 or 4, wherein the incandescent region has a different diameter along different sections 6-8 of the leg, and as the diameter of the section decreases, the sections 6-8 have a terminal 1, A molybdenum silicide-based electrical resistive element, characterized in that it is disposed away from 2). The incandescent region according to claim 1, 2, 3 or 4 has a different diameter along different sections 14-17 of the legs 4, 5, the smaller the diameter of the sections 6-8. ) Is a molybdenum silicide-based electrical resistance element, characterized in that adjacent to the terminals (1, 2). The method according to claim 1, 2, 3 or 4, wherein the incandescent area has a different diameter along different sections 9-11 of the legs 3, the diameter of the sections being up and down along the legs (single or plural). Molybdenum silicide-based electrical resistance element, characterized by changing to.